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Oil & GasGeoKey®
Greater well depths and higher temperatures are bringing new demands on logging hardware. GeoKey® provides a full range of measurements from a system ascompact as possible in terms of length, weight and diameter.
The innovative GeoKey® range offers slim stackable open-holelogging modules for the Oil and Gas industries.
Robertson Geo quality driven engineering is providing provencalibrated data from worldwide locations on an exceptional costand results effective basis.
Publication No: 003 RGO/18
2 www.robertson-geo.com
Robertson Geo is the market leader and globally the largest supplierof slimhole wireline logging instrumentation systems with itscomprehensive offer of geophysical probes/modules andsupporting surface equipment purpose designed and built in-house.
It is the only independent UK supplier of slimhole oilfield tools foropen-hole logging.
Oil & Gas
Images are representationaland not necessarily to scale
- see specifications on pages 6 through 18
Micro-Resisitivity Im
ager (GMI)
Micro-Resisitivity (GM
R)
Litho-Density (GLD)
Compensated Neutron (GCN)
Spectral Gamm
a Ray (GSG)
3www.robertson-geo.com
GeoKey®Market trends are for wells constructed withsmall diameters in shale gas and unconventionalresources and there is a focus towards reducedoperating costs and site footprints for newonshore exploration and development wells.
Greater well depths and higher temperatures arebringing new demands on hardware requiringlogging systems as compact as possible andproviding a full range of measurements.
Robertson Geo is a specialist technologyorganisation dedicated to its supply and servicelogging technologies providing a results-basedfocus for the Oil and Gas industries that’s notmatched by large integrated multi-serviceproviders.
The GeoKey® suite is designed and custommanufactured by Robertson Geo with a nominalmodule diameter of 2.5” (63mm). It’s ideal forlogging in small holes or wells with restrictedaccess. The range operates at a maximumworking temperature of 125°c and maximumpressure of 12,500psi.
GeoKey® can be deployed in vertical wells andwells approaching 80° inclination.
Logging servicesRobertson Geo engineers are experienced, highly trained and fully certified for wirelinelogging operations and can be deployed to anyglobal locations.
The complete GeoKey® suite of equipment isavailable on a service basis operated by thesefield crews. They are capable of executingprolonged logging operations with minimumoutside support, including handling of nuclearbased tools and data processing.
These are very cost effective contracting servicesin circumstances where projects do not justifypurchasing equipment and the necessary backup facilities.
Equipment supplyAll Robertson Geo modules are fully tested andcalibrated at the Deganwy facility prior todispatch, eliminating testing time on site andensuring the modules are fully operational priorto downhole use.
Depending on customer needs operational andcustomised training can be provided; this forwinch use, module deployment, loggingtechniques, data capture and equipmentmaintenance and troubleshooting.
Equipment lease to purchaseRobertson Geo logging equipment is available torent, either as a full system or as individualmodules. Customised borehole and classroomtraining can be provided. Equipment packagescan be offered on a lease to purchase basis forcustomers who prefer to buy systems for longerterm projects.
From a background of servicing the Oil and Gas exploration marketsfor over a decade, Robertson Geo has developed the GeoKey® rangeof compact, stackable, open-hole logging modules and surfaceequipment accessories.
Applications have included unconventional hydrocarbons, tar sands,oil shale, coal bed methane, deep geological surveys and waterwells with systems being deployed to international locations on aglobal scale.
Example of data createdby the Telemetry module(GTM).
Further data examplesare shown with eachspecification page formodules and whereapplicable surfaceequipment on pages 6 through 18.
4 www.robertson-geo.com
GeoKey® modulesOptimised for responses in boreholes up to 12”with nuclear designs supported by Monte Carlomodelling and resistivity tools by finite elementanalysis.
Modules have been benchmarked againstindustry standard formations such as the CallistoTest Facility UK.
The use of low level radioactive sources withoutcompromising data quality makes GeoKey®unique and highly cost effective. By Q1 2019, thefull suite of GeoKey® modules will be verified at astate-of-the-art calibration and test facility inEurope under strict metrology tolerances.
Telemetry (GTM): the topmost acquisition tool inthe stack, immediately below the DownholeTension/Compression module. See page 6
Downhole Tension (GDT): positioned above theTelemetry section in order that it can measurethe maximum possible tool weight. See page 7
Litho-Density (GLD): combines a borehole-corrected bulk density measurement with aphotoelectric lithology log (Pe). See page 8
Compensated Neutron (GCN): provides anenvironmentally compensated porosity log inmud filled holes. See page 9
Dual Laterolog (GDL): provides deep andmedium penetrating resistivity measurementsusing a classic Laterolog-9 electrodeconfiguration, it is the preferred alternative to thearray induction probe in saline muds. See page 10
Dual Induction (GDI): provides conductivity logswith deep and medium depths of investigationto profile borehole fluid invasion into theformation. See page 11
Micro-Resistivity (GMR): provides a high-vertical-resolution micro-focused resistivity measurementwithin the flushed zone. See page 12
Micro-Resistivity Imager (GMI): provides a high-resolution spatially orientated image offeatures on the borehole walls. See page 13
Compensated Sonic/CBL (GSC): provides multi-spacing digital acoustic-velocity(formation-slowness) measurements with highvertical resolution. See page 14
Spectral Gamma Ray (GSG): analyses theenergy spectrum of gamma radiation fromnaturally occurring or man-made radioactiveisotopes. See page 15
4-Arm Caliper (GXY): two pairs of linked caliperarms giving borehole size and orientated shape,the combination of X-Y caliper data allows foraccurate borehole volume calculations, break-outinvestigations and stress analysis. See page 16
Ultrasonic Noise Detector (GND): detects pointsof entry of high-pressure gas into an open boreholeby listening for an ultrasonic signature. See page 17
Surface equipmentGeoKey® modules are compatible with thirdparty, hydraulic and standard winches for use upto 4,500m using 5/16” hepta-cable.
GeoKey® runs through Robertson Geo’s ownunique cable head system and is supported by afull range of accessories including, downholetension, centralisers/decentralises, offset joints,base and field calibrators and radioactivesources, available through proven and industrystandard third party partners.
The surface interface uses the industry standardlog acquisition software Warrior™, by ScientificData Systems Inc.
Robertson Geo is the only logging services provider with a QMS certified to ISO 9001, calibrating all of its logging systems anduniquely using an on-site borehole for testing at its Deganwycalibration and test well facility that includes calibration blocks andautoclaves capable of testing complete modules at temperatures upto 175°c and pressures up to 138MPa simultaneously.
Oil & Gas
Example of data createdby the Micro-ResistivityImager module (GMI).
Further data examplesare shown with eachspecification page formodules and whereapplicable surfaceequipment on pages 6 through 18.
5www.robertson-geo.com
Representative examples to show Essential, Intermediate and Advanced systems as abenchmark for identifying the level of data and interpretation required for individual locationsand characteristics.
Robertson Geo support teams are always available for further information and discussion whenconsidering system applications at [email protected]
Oil & GasApplications
Essential Intermediate AdvancedGeoKey® Surface Acquisition System
Telemetry (GTM)
Litho-Density (GLD)
Compensated Neutron (GCN)
Dual Laterolog (GDL)or Dual Induction (GDI)
GeoKey® Surface Acquisition System
Telemetry (GTM)
Litho-Density (GLD)
Compensated Neutron (GCN)
Dual Laterolog (GDL)or Dual Induction (GDI)
Micro-Resistivity (GMR)
Compensated Sonic (GSC)
GeoKey® Surface Acquisition System
Telemetry (GTM)
Litho-Density (GLD)
Compensated Neutron (GCN)
Dual Laterolog (GDL)or Dual Induction (GDI)
Micro-Resistivity (GMR)
Micro-Resistivity Imager (GMI)
Compensated Sonic (GSC)
Spectral Gamma Ray (GSG)
See module and surface equipment specifications pages 6 through 18.
6 www.robertson-geo.com
Telemetry (GTM)
SPECIFICATION:
The GeoKey® Telemetry module with Navigation pack is the topmost acquisition tool inthe stack, immediately below the Downhole Tension/Compression module.Its main function is to collect and combine digital data from all other tools and to transmit this in a digital form via the logging wireline to the surface acquisition system. It also provides control functions and tool power to the otherlogging tools.
Principle of Measurement:All tools in the stack communicate with the Telemetry module over a common internal RS485 data bus. The Telemetry moduleorganises this data and transmits it to the surface using proprietary high-speed protocol. Data is acquired on a depth basis with asample interval selected to optimise measurement resolution/logging speed.
Example of logging data
Telemetry Module
2.08m(82”)
Accelerometers &Magnetometers
Gamma
FeaturesBi-directional digital transmission
Compatible with industry standard 5/16” or larger diameter cable
Continuous borehole orientation log
MeasurementsNatural Gamma
Vector data sourced from orientation package creates:• Borehole inclination• Borehole direction• Borehole drift• True vertical depth• Relative Bearing• Magnetic Tool Face • Total G field• Total B field
ApplicationsNatural gamma:Lithology indication
Shale measurement
Bed-boundary/bed thickness measurement
Correlation between logs and wells
Borehole inclination and direction:QA of borehole construction
Bed-thickness correction
Bed-thickness estimation
Surveying and deviation checks
Operating ConditionsBorehole type: open hole Ø:102mm (4") to 305mm (12")
SpecificationsDiameter: 63mm (2.5”)
Length: 2.08m (82”)
Weight: 23kg (51lb)
Max. temperature: 125°C
Max. pressure: 86MPa (12,500psi)
Inclinometer: Triaxial Accelerometers
Azimuth: Triaxial Magnetometers
Natural gamma detector: 101 mm x 38 mm NaI(Tl) Scintillation crystal
Part NumbersI017919 Telemetry - includes gamma, Navigation pack
Accessories:I015464 Natural gamma check calibration blanket
I004127 Make-up plate
I004128 Assembly wrench
7www.robertson-geo.com
Downhole Tension (GDT)
SPECIFICATION:
The Downhole Tension module is positioned above the Telemetry section in order that itcan measure the maximum possible tool weight.Only the Isolator and Cablehead sections can be used above the Tension/Compression module.
Principle of Measurement:This section is useful for cable jams when the downhole tension can be compared to the surface wireline tension readout. In theevent of fishing for a tool, the compression can give vital indication that the tool is latched correctly.
Downhole Tension Module
1.11m(43.7”)
FeaturesTension compression output
Fits directly beneath cablehead
Compatible with industry standard 5/16” or larger diameter cable
Downhole tension can be compared to the surface wireline tension readout to helpavoid cable jams and assist in finishing operations
MeasurementsDownhole Compression
Downhole Tension
ApplicationsDetection of cable jams by comparison with surface wireline tension readout
During fishing operations, compression provides confirmation of correct tool latching
CalibrationBoth tension and compression readings are configured to give kgF units
Operating ConditionsBorehole type: all
SpecificationsDiameter: 63 mm (2.5”)
Length: 1.11 m (43.7”)
Weight: 16 kg (36lb)
Max. operating temperature: 125°C
Max. operating pressure: 86MPa (12,500psi)
Max. Tension/Compression: 1815kgF (4000lbF)
Part NumbersI016423 Downhole Tension/Compression module
8 www.robertson-geo.com
Litho-Density (GLD)
SPECIFICATION:
The Litho-Density module combines a borehole-corrected bulk density measurementwith a photoelectric lithology log (Pe).The radioactive source and detectors are mounted in an articulated skid that is maintained in contact with the boreholewall by a powered backup arm to minimise borehole rugosity effects. The arm also doubles as a caliper measurement.The tool may be combined with compensated neutron and focused induction measurements in the classic ‘triple-combo’configuration.
Principle of Measurement:Gamma radiation from a 137Cs source in the tool is Compton scattered by the formation and detected by two scintillation detectors. The relative intensities of the radiation at each detector give a measurement of formation bulk density. The photoelectric measurement isderived from the ratio of the gamma intensities in high and low energy windows at a detector. It depends of the formation atomicnumber and is a good lithology indicator. The measurements are influenced by the borehole environment. These effects are minimisedby corrections calculated by extensive Monte Carlo modelling and benchmarked to standards at the Callisto facility in Leicestershire, UK.
Example of logging data
Litho-Density Module
Source
3.23m(127”)
HRD
LSD
Caliper
FeaturesDrift eliminated by digital circuitry and active calibration loops based on internalreference sources
Well characterised tool response based on computer calculations
Tungsten carbide coated wear plate on skid can be replaced in the field
High-resolution measurement
Maximum data sampling rate is 1cm (0.4”)
MeasurementsBulk density (rhoB)
Correction indicator (Δrho)
Photoelectric effect (pef)
Borehole Diameter
ApplicationsMatrix Identification
Formation fluid analysis
Porosity from density
Operating ConditionsBorehole type: open hole 4” to 12”
Specifications(HRD; LSD) density sensors offsets 160 mm (6.3”) , 399 mm (15.7”)
Diameter: 84mm (with stand-off), 74mm (without stand-off)
Length: 3.23m (127”)
Weight: 57kg (125.6lb)
Max. temperature: 125°C
Max. pressure: 86MPa (12,500psi)
Density range: 1.1 -2.95 g/cc +/- 0.005 g/cc (1 std deviation)
Density radius of investigation: 102 mm (4”) to 152 mm (6”)
Photoelectric range: 1-10 Barns
Caliper range: 90mm (3.54”) – 300mm (12”)
Caliper resolution: 1 mm (0.04”)
Part NumbersI003937 Litho-Density module
Accessories:I013961 18.5GBq 137Cs source
I004126 Source holder
I004125 Source transport pig
I004123 Source handling tool set
I004129 Density/ Pe calibrator
I004131 Caliper calibrator
9www.robertson-geo.com
Compensated Neutron (GCN)
SPECIFICATION:
The Compensated Neutron module provides an environmentally compensated porositylog in mud-filled open holes.An alternative epithermal detector configuration is available for air/gas filled holes. The tool design has been optimisedto provide good performance at acceptable logging speeds while still using a relatively small 92GBq 241Am-Be source. It is combinable with the Litho-Density and Dual Induction log in a single run.
Principle of Measurement:The Compensated Neutron measurement uses two 3He proportional detectors and a side-door entry sealed neutron source. Fastneutrons emitted by the source are scattered and slowed down by light elements (principally hydrogen) in the formation. The ratioof the neutron flux reaching the detectors depends on the formation hydrogen index/formation porosity.Neutron porosity measurements are affected by the borehole environment. These effects are compensated in software byalgorithms calculated by Monte Carlo modelling and benchmarked to standards at the Callisto facility in Leicestershire, UK.
Example of logging data
Compensated Neutron Module
Source
2.27m(89.4”)
SSN
LSN
FeaturesWell characterised tool response based on computer calculations for limestone,sandstone and dolomite
Fully digital telemetry combines with density, induction and other logging probes
Low-activity source requirements for safe handling and cost reduction
High-resolution measurement
Maximum data sampling rate is 1cm (0.4”)
MeasurementsPorosity ɸRatio long/short and raw counts
ApplicationsPorosity
Lithology (in conjunction with other logs)
Gas/light hydrocarbon detection
Correlation between wells
Operating ConditionsBorehole type: fluid filled Ø:102mm (4") to 305mm (12")
SpecificationsDiameter: 63mm (2.5”)
Length: 2.27m (89.4”)
Weight: 28kg (62lb)
Max. temperature: 125°C
Max. pressure: 86MPa (12,500psi)3He detectors offsets: 203 mm (8”) and 406 mm (16”)
Porosity Range: -15% to 60% (limestone scale)
Resolution: 0.6 PU in 152 mm (6”) borehole at 15% porosity
Radius of investigation: 152 mm (6”) – 406 mm (16”)
Part NumbersI003942 Compensated Neutron module
Accessories:I013962 92 GBq 241Am-Be source
I004124 Source holder
I004122 Source transport pig
I004123 Source handling tool set
I004137 Field check jig
I017411 Dual-band eccentraliser for neutron/telemetry
10 www.robertson-geo.com
Dual Laterolog (GDL)
SPECIFICATION:
The Dual Laterolog module provides deep and medium penetrating resistivitymeasurements using a classic laterolog-9 electrode configuration. It is the preferredalternative to the array induction probe in saline drilling muds.The module is run below a solid insulated bridle that includes the SP, voltage-reference and Groningen measurementelectrode. A specific isolator module is used with this module. This insulated section is positioned between the cablehead and the DHT module (if used).
Principle of Measurement:An alternating current from the central A0 electrode passes through the formation and returns to a surface fish (deep resistivity) orto electrodes A2 and A2’ on the module (shallow resistivity). A bucking current flowing from the guard-electrode pair A1 and A1’ iscontrolled to maintain the monitor electrode pairs M1M2 and M1’M2’ at the same potential. These equipotential surfaces constrainthe measure current path to a disc of thickness 2ft.
Example of logging data
Dual Laterolog Module
A2
8.83m(348”)
A1
M1 / M2
A0
M1’ / M2’
A2’
A1’
FeaturesDown-hole digital control of current sequence for deep and shallow measurements
Focused measurement gives high vertical resolution
Constant power drive for wide dynamic range
Voltage reference and SP measurement from electrode on rigid bridle
Stackable with GeoKey® slim oilfield system
MeasurementsDeep focused resistivity (LLD)
Shallow focused resistivity (LLS)
SP
Groningen effect
ApplicationsInvasion profile
Fluid Saturation
Permeability indication
Operating ConditionsBorehole type: open-hole, mud-filled 4” - 12”
SpecificationsDiameter: 63mm (2.5”)
Total length: 8.83m (348”) combined
Max section length: 3.37m (133”)
Weight: 113.5kg (250lb) (3 sections)
Max. operating temperature: 125°C
Max. operating pressure: 86MPa (12,500psi)
Range: 0.1 to 40,000 ohm-m
Accuracy: 5% at 1000 ohm-m
Resolution: 1% measured value
Part NumbersI0013886 Dual Laterolog module
Accessories:I0015009 Solid bridle with reference electrode
I0013888 Field test box with leads and clamps
11www.robertson-geo.com
Dual Induction (GDI)
SPECIFICATION:
The Dual Induction module provides conductivity logs with deep and medium depths ofinvestigation to profile borehole fluid invasion into the formation.The tool uses an ‘array’ technique where multiple sets of in-phase and out-of-phase receiver responses are processedand summed to emulate the vertical and radial responses of classic 6FF40 ILD and ILM logs. The tool may be combinedwith other measurements and is run at the base of the stack. The module includes a fast-response platinum resistancethermometer for measurement of external borehole temperature.
Principle of Measurement:An oscillating high-frequency magnetic field created by a transmitter coil within the module induces an alternating electrical currentwithin the surrounding conductive formation. This current, in turn, induces voltages within multiple receiver coils in the moduleproportional to formation conductivity. The transmitter-receiver spacing determines the depth of investigation of the measurements.
Example of logging data
Dual Induction Module
Temperature
4.01m(158”)
FeaturesMultiple coil ‘array’ measurement using computer processing to synthesise tool responses
Internal temperature compensation for low drift
Oil-filled and pressure-balanced mandrel
Fully digital telemetry combines with density, neutron and other logging probes
High-resolution measurement
Maximum data sampling rate is 1cm (0.4”)
Includes external temperature measurement
MeasurementsDeep conductivity (ILD)
Medium conductivity (ILM)
Temperature and differential temperature
ApplicationsHydrocarbon saturation
Porosity
Lithology (in conjunction with other logs)
Correlation between wells
Operating ConditionsBorehole type: open hole Ø:102mm (4") to 305mm (12")
SpecificationsDiameter: 70mm (2.7”)
Length: 4.01m (158”)
Weight: 31kg (68lb)
Max. temperature: 125°C
Max. pressure: 86MPa (12,500psi)
Operating Frequency: 25.6 kHz
Number of coils: 1 x Tx; 4 x Rx; 4 x focusing
Numbers of spires for each solenoid: 4 x 3-coil sub-arrays
Effective Tx-Rx Spacing: 457mm (18”), 686mm (27”), 914mm (36”), 1.50 m (60”) (nominal spacing)
Drift over T° range: <2 mS/m
Resistivity range: 0 to 200ohm-m (Qualitative indication up to 2000ohm-m)
Depth of investigation: ILD 150cm (60”) ILM 75cm (30”)
Part NumbersI003947 Dual Induction module with temperature
Accessories:I004133 Calibration loop
I004134 Fin stand-off (set of two)
Coil Array
12 www.robertson-geo.com
Micro-Resistivity (GMR)
SPECIFICATION:
The Micro-Resistivity module provides a high-vertical-resolution micro-focused resistivitymeasurement within the flushed zone.The measurement electrodes are mounted on a flexible pad which is maintained in contact with the borehole wall by amotor-driven back-up/caliper arm. The measurement pad is interchangeable to give either micro-focused resistivity ormicro-normal/micro-lateral electrode geometries. The tool is stackable with all other slim-2.5” oilfield probes. Whencombined with the Dual Laterolog it replaces the lower guard electrode.
Micro-focused resistivity principle of measurement:A central current-injection electrode is surrounded by 3 concentric ring electrodes in a circular LL-7 configuration. The measurecurrent is focused into a narrow beam which penetrates the mud-cake to give a resistivity measurement in the flushed zone (Rxo)beyond.
Micro-normal/micro-lateral principle of measurement:Three in-line button electrodes, 1” apart, are configured to provide simultaneous 2” micro-normal and 1.5” micro-lateralmeasurements. Separation of the two measurement values due to their different depths of investigation gives an indication ofmud-cake thickness.
Example of logging data
Micro-Resistivity Module
Micro-ResistivityCaliper
3.63m(142.9”)
FeaturesHigh-vertical-resolution resistivity
Robust back-up arm ensures good pad contact
Pad interchangeable in field
Fully stackable with other Robertson Geo oilfield probes
MeasurementsResistivity of invaded zone (Rxo)
Borehole diameter
ApplicationsDetermination of moveable hydrocarbons
Correction of Rt for invasion
Indication of permeability
Precise location of bed boundaries
Operating ConditionsBorehole type: open-hole, mud/water filled
Ø:102mm (4") to 305mm (12")
SpecificationsDiameter: 102mm (4“) (with 8” pad)
Length: 3.63m (142.9”)
Weight: 55kg (121lb)
Max. temperature: 125°C
Max. pressure: 86MPa (12,500psi)
Range: 0.2 to 2,000ohm.m
Caliper range: 120mm (4.75”) – 400mm (12”)
Part NumbersI015642 Micro-Resistivity module
Accessories:I015644 Spare micro-focused resistivity pad
I015646 Spare micro-normal/micro-lateral pad
13www.robertson-geo.com
Micro-Resistivity Imager (GMI)
SPECIFICATION:
The Micro-Resisitivity Imager module provides a high-resolution spatially oriented imageof features on the borehole walls.The tool includes 4 pads each containing twelve button electrodes mounted on 2 pairs of powered arms. The currentemitted by each electrode is focused into a narrow beam and returns to a remote part of the tool body. The current fromeach electrode is measured and digitised in each pad and transmitted to the surface by a separate telemetry moduleusing a proprietary high-speed communications system. The tool may be run on 7-core cables and is compatible withthe standard Robertson Geo oilfield surface system running Warrior™ software.
Example of logging data
Micro-Resisitivity Imager Module
3.36m(132”)
ImagingPads
Features48 button electrodes (12 on each pad)
Data sampling interval 60ms with real-time transmission of all data
Exchangeable pads for hole sizes between 110mm and 220mm
40% wall coverage in 146mm borehole
MeasurementsMicro-resistivity
Borehole diameter (XY caliper)
ApplicationsIdentification of faults and folding
Location/characterisation of fractures
Determination of structural dips
Analysis of sedimentary structures and cross-bedding
Core orientation
Operating ConditionsBorehole type: open-hole, mud/water filled
Ø:102mm (4") to 257mm (10.1")
Centralisation required
SpecificationsDiameter: 94mm (3.7”) (with 8.5” pad)
Length: 3.36m (132”)
Weight: 47kg (103.5lb)
Max. temperature: 125⁰C
Max. pressure: 86MPa (12,500psi)
Caliper accuracy: +/- 5mm
Inclination accuracy: +/- 0,1 deg
Azimuth accuracy: +/- 5 deg
Button current precision: 16-bit (48 button electrodes - 12 on each pad)
Resolution (radial & vertical): 7mm (46% wall coverage in 146mm borehole)
Logging speed: 300m/hr
Borehole range: 114mm (4.5”) to 250mm (10”)
Part NumbersI015579 Micro-Resisitivity Imager module
14 www.robertson-geo.com
Compensated Sonic/CBL (GSC)
SPECIFICATION:
The Compensated Sonic/CBL module provides multi-spacing digital acoustic-velocity(formation-slowness) measurements with high vertical resolution.Full-waveform recording and CBL measurements are also available. The tool can be stacked with other tools.
Principle of Measurement:Two piezoelectric transmitters stimulated by high-voltage pulses radiate high-frequency acoustic waves through the borehole fluidand formation to the receiver pair. An accurate quartz clock measures the arrival time of the first compressional wave at eachreceiver from each transmitter firing. The data is automatically processed to remove the influence of the borehole fluid path, tooltilt and caving (depth-derived borehole compensation). The attenuation of the first arrival is related to the bond quality and thestrength of the cement, giving a Cement Bond Log (CBL).
Example of logging data
Compensated Sonic/CBL Module
Upper RX
4.50m(177.2”)
Lower RX
Upper TX
Lower TX
FeaturesHigh-energy transmitters for maximum penetration
Two monopole receivers and two monopole transmitters
Depth-deprived borehole compensation for borehole tilt and caving
Amplitude and waveform data in CBL mode with industry standard 3’ and 5’ spacings
Oil-filled mandrel with pressure compensation
MeasurementsFormation velocity (slowness)
Tx-Rx spacings: 3ft, 4ft, 5ft, 6ft
Compensated DT from each receiver pair
Cement Bond Log (CBL) amplitude and waveform
ApplicationsOpen Hole:Lithology
Porosity
Rock strength and elasticity
Fracture indication
Time to depth correlation for seismic
Cased Hole:Location of poor or missing cement behind casing
Operating ConditionsBorehole type: water/mud filled; open/cased
Ø:102mm (4") to 305mm (12")
SpecificationsDiameter: 63mm (2.5”)
Length: 4.50m (177.2”)
Weight: 50kg (110lb)
Max. temperature: 125°C
Max. pressure: 86MPa (12,500psi)
Number of piezoelectric transmitters and offsets: 2 (4.75ft, 5.75ft)
Frequency of emission: 20 kHz
Number of receivers and offsets: 2 (8.75ft, 10.75ft)
Range: 40 – 240 µs/ft (130-787 µs/m)
Resolution: 0.25 µs/ft
Vertical Resolution: 1ft or 2ft
Part NumbersIO13889 Compensated Sonic/CBL module
Accessories:I014803 6-arm centraliser (2 required)
15www.robertson-geo.com
Spectral Gamma Ray (GSG)
SPECIFICATION:
The Spectral Gamma Ray module analyses the energy spectrum of gamma radiation fromnaturally occurring or man-made radioactive isotopes.The module includes a large volume detector contained in a Dewar flask for thermal stability. The Full Spectrum Analysis(FSA) technique used to compute the contributions of individual isotopes makes optimum use of all acquired data. It isalso used for gain stabilisation by mapping spectral shifts between successive depth intervals. Borehole size, mudweight and probe position effects are compensated by the software.
Principle of Measurement:Gamma photons produced by radioactive decay of unstable isotopes create light emissions in the gamma scintillation detector. Theamplitude of the pulse depends of the photon energy. An analyser within the module separates the pulses into separate channelsaccording to their amplitudes. Count-rates from groups of channels are converted in real-time by the surface software toconcentrations of originating elements using preset algorithms.
Example of logging data
Spectral Gamma Ray Module
Detector
2.29m(90”)
FeaturesLarge-volume scintillation detector for high sensitivity
Dewar flask for thermal stability
Full spectrum dynamic drift compensation
MeasurementsUranium (ppm)
Thorium (ppm)
Potassium (%)
Gross gamma
Full spectrum (static measurement)
ApplicationsLithology determination
Mineral detection
Sedimentology
Improved shale-content computation
Correlation
Contamination studies
Operating ConditionsBorehole type: open/cased, water/air-filled
SpecificationsDiameter: 63mm (2.5”) - max dia. 89mm (3.5”)
Weight: 40.5kg (89.3lb)
Length: 2.29m (90”)
Max. Temperature: 125°C
Max. pressure: 86MPa (12,500psi)
Detector: Na(Tl) scintillator
Detector Size: 51mm x 300mm
Energy range: 100keV to 3MeV
Number of channels: 300
Part NumbersI016424 Spectral Gamma Ray module
I015464 Natural-Gamma Calibration Blanket
16 www.robertson-geo.com
4-Arm Caliper (GXY)
The 4-Arm Caliper module consists of two pairs of linked caliper arms providing boreholesize and orientated shape.
The combination of X-Y caliper data allows for accurate borehole volume calculations, break-out investigation and stress analysis.
Principle of Measurement:The X-Y caliper provides continuous measurements of the borehole diameter from two independent pairs of linked arms. Data from these can be combined with orientation data from the Telemetry module to provide an accurate record of boreholeorientation, size and shape.
Example of logging data
4-Arm Caliper Module
2.35m(92.5”)
FeaturesSensitive X-Y caliper
SPECIFICATION:
MeasurementsX and Y calipers
Borehole volume (derived)
ApplicationsHydrocarbons/water/minerals/engineering
Borehole diameter in two axes
Borehole break-out for stress analysis
Cracks, fissures and casing defects
Operating ConditionsBorehole type: open/cased, water/air-filled
Centralisation: recommended
Part NumbersI017950 4-Arm Caliper module
SpecificationsDiameter: 63mm
Length: 2.35m (92.5”)
Weight: 23kg
Temperature: 125⁰C
Max. pressure: 5000 psi
Caliper range: 75mm to 700mm maximum
Caliper
17www.robertson-geo.com
Ultrasonic Noise Detector (GND)
SPECIFICATION:
The Ultrasonic Noise Detector module detects points of entry of high-pressure gas into anopen borehole by listening for an ultrasonic signature.Principle of Measurement:Sound energy caused by gas entering the borehole is focused by a conical acoustic mirror within the probe onto a microphone. Themicrophone is tuned to measure the acoustic energy in a frequency band centred at 40kHz, characteristic of entry of high pressuregas through a narrow orifice.
Ultrasonic Noise Detector Module
UltrasonicTransducer
1.89m(75”)
UltrasonicTransducer
FeaturesDual detectors in a differential configuration to reduce background noise
High-sensitivity microphones with acoustic focusing
Fully digital telemetry combines with density, neutron and other logging probes
Easy field access for replacement of microphones
MeasurementsMean acoustic energy within a fixed passband centred at 40kHz
ApplicationsGas detection
Operating ConditionsBorehole type: Dry open hole only
SpecificationsDiameter: 63mm (2.5”)
Length: 1.89m (75”)
Weight: 26.5kg (58.4lb)
Max. temperature: 125°C
Max. pressure: 1MPa
Part NumbersI003952 Ultrasonic Noise Detector module
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GeoKey® Surface Acquisition System
The GeoKey® Surface Acquisition System is PC-based, running the industry-standard Warrior™ log-acquisition software.The system is configurable and consists of separate 19” rackmounted modules.At the heart of the system, the Robertson Geo tool interface provides digital bidirectional communications to the tool stack using a high-speed proprietary QAM protocol. The interface is directly compatible with all Robertson Geo oilfield probes without the need for individual specialised tool modules.
SPECIFICATION:
GeoKey® Surface Acquisition SystemGeoKey® Surface Acquisition System Interface 3U module includes high-speedtool communications, depth and tension.
Warrior™ is a trademark of Scientific Data Systems Inc.
SpecificationsPower Module 1U panel supplies 0 – 300VDC probe power
System Computer 2U panel-mounted ruggedised Win7/Win10 P
Break-out Panel Optional 1U panel for convenient access to logging lines, depth-encoder outputs and the tension device
Optional Thermal Plotter 2U printer for real-time hardcopy logs
Part NumbersI016425 GeoKey® Surface Acquisition System data logger
I016325 Cable breakout panel with tension/depth interface
I014946 Rack mounted 8.5" thermal wellog printer
I004010 Warrior™ 8 acquisition software (Robertson Geo version)
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20 www.robertson-geo.com
Robertson Geologging Ltd.Deganwy, Conwy, LL31 9PX,
United Kingdom
T: +44 (0) 1492 582 323E: [email protected]
Robertson Geologging (USA) Inc.1809 N. Helm Ave., Suite 4,
Fresno, CA 93727, USA
T: +1 (559) 456 1711E: [email protected]
Robertson Geologging (Asia) Inc.Flat 21A, Village Tower, 7 Village Road,
Happy Valley, Hong Kong
T: +852 650 33486E: [email protected]
www.robertson-geo.com
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